The 24LC16BT-I/SNG is a 16 Kbit Electrically Erasable PROM (EEPROM) device from Microchip Technology. It is designed to meet the high-performance requirements of a wide range of electronic applications, providing reliable data storage with a high endurance and low-power consumption.

Key Features

• Memory Size: 16 Kbits (2,048 x 8)
• Interface Type: I2C (2-wire serial interface)
• Speed: Supports standard and fast I2C protocol (up to 400 kHz)
• Supply Voltage Range: 2.5V to 5.5V, suitable for a variety of logic levels and systems
• Temperature Range: Industrial grade (-40°C to +85°C), ensuring operation in harsh environments
• Packaging: 8-pin SOIC (SNG) package for easy integration into surface-mount technology (SMT) processes
• Write Protect: Features a hardware write-protect pin for data security
• Low Power Consumption: Designed for low-power applications, with a typical standby current of only 1 µA
• Page Write Buffer: Allows up to 16 bytes of data to be written in a single write cycle, facilitating efficient data management
• Endurance: Capable of 1 million write cycles per byte and a data retention of 100 years, offering long-term reliability

Applications

The 24LC16BT-I/SNG is versatile and can be used in a broad array of applications, including:

• Consumer Electronics
• Industrial Automation
• Automotive Systems
• Telecommunication Infrastructure
• Medical Devices
• Smart Cards

Why Choose 24LC16BT-I/SNG?

With its robust feature set, the Microchip 24LC16BT-I/SNG EEPROM is an excellent choice for designers looking for a reliable non-volatile memory solution. Its wide voltage range, high endurance, and low-power consumption make it ideal for battery-operated and power-sensitive applications. The device's compatibility with the I2C bus protocol ensures easy integration into most microcontroller-based systems, simplifying design and reducing time to market.

Whether you are working on a small-scale project or a large industrial application, the 24LC16BT-I/SNG from Microchip Technology offers the performance and reliability that modern electronics demand.